CN111115163A

CN111115163A - Scanning and picking workstation group

Info

Publication number: CN111115163A
Application number: CN201911394851.8A
Authority: CN
Inventors: 汤建红; 何小龙; 程翔; 金雪芬; 张洪山; 韩璞
Original assignee: Suzhou Xinning Logistics Co Ltd
Current assignee: Suzhou Xinning Logistics Co Ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-05-08
Anticipated expiration: 2039-12-30
Also published as: CN111115163B

Abstract

The invention discloses a scanning and picking work station group which comprises a conveying line (1) and a control system (2) for controlling the conveying line (1), and further comprises a scanning work table (3) and a picking groove position (4), wherein the conveying line (1) comprises a main body line (11), a first station entering line (12) connected with the main body line (11) and a station exiting line (13) respectively connected with the main body line (11) and the first station entering line (12), the scanning work table (3) and the picking groove position (4) are respectively positioned on two sides of the first station entering line (12), and the picking groove position (4) is connected with the side edge of the station exiting line (13). According to the invention, the stations for scanning and picking goods are combined into a work station group, so that the scanning and picking functions can be realized, equipment investment and occupied space are reduced, and the utilization rate of the conveying line is higher.

Description

Scanning and picking workstation group

Technical Field

The invention relates to the technical field of logistics, in particular to a scanning and picking workstation group.

Background

At present, with the rapid development of economy, the construction of distribution facilities in domestic logistics, particularly in the commercial distribution, postal and express industries, pays more and more attention to and pays attention to. As a major component of distribution facilities, scanning warehousing and sorting are important links in the overall logistics system.

The scanning warehouse entry is mainly used for scanning the goods and receiving the goods information into a logistics system, the box body filled with the goods enters a scanning station through a conveying line, and the operation personnel scans the goods in the box body one by one. The box for storing the goods is generally divided into a large box for containing large goods or a small box for containing small goods, and the small boxes need to be stacked up and down for placing and conveying in order to improve conveying efficiency, so that when the small boxes are scanned, when the workers scan the goods in the small boxes at the upper end, the small boxes at the upper end need to be removed, and after the scanning is finished, the small boxes are moved back, the repeated manual box moving work is carried out, and the labor intensity of the workers is very high. In addition, the workstation has been placed to transfer chain one side, and the workstation is used for placing the label printer of operation usefulness, the packing consumptive material that needs, operation computer etc. and when the operation personnel scanned the goods from the box, transfer chain and box were located operation personnel's front, and the workstation and the operation articles for use on it are located operation personnel back of the body rear, and the operation personnel need make a round trip to turn around and walk about when using operation articles for use, and the action is constantly, the operation of not being convenient for.

The picking is mainly used for delivery of goods and transfer picking and conveying of goods, and is a conveying process for classifying, concentrating and loading goods according to different customers and different distribution routes. The existing picking work station can only complete one picking task at a time, and the picking efficiency is low. In addition, the existing scanning and picking work stations are two independent work stations respectively, and are provided with independent conveying lines, so that the occupied space is large, and the utilization efficiency of the conveying lines is low.

Disclosure of Invention

The invention aims to provide a scanning and picking work station group with small occupied space and high utilization efficiency of a conveying line, aiming at the defects in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a scanning and select workstation group, its includes transfer chain and control the control system of transfer chain, workstation group is still including scanning workstation and picking trench, the transfer chain include the main part line, with the first line of standing of meeting of main part line and respectively with the main part line with the line of standing of first line of standing meets, scanning workstation with it is located respectively to select the trench first line both sides of standing, select the trench with the line side of standing meets.

In addition, the invention also provides the following auxiliary technical scheme: the first station entering line comprises a first station entering branch line and a second station entering branch line which are connected with each other, the first station entering branch line is connected with the main line body, and the second station entering branch line is connected with the station leaving line.

The main body line, the first station entering branch line, the second station entering branch line and the station exiting line enclose a square-shaped accommodating space, and the scanning workbench is arranged in the accommodating space and located on one side close to the second station entering branch line.

An operating station is formed between the second station entering branch line and the picking slot position.

The conveying line further comprises a second station entering line which is identical to the first station entering line in structure, and the second station entering line and the first station entering line are symmetrically arranged on two sides of the station exiting line.

The picking groove positions are symmetrically arranged on two sides of the departure line, and the picking groove positions on each side of the departure line are arranged side by side.

The work station group further comprises a supply line located above the conveying line and used for supplying the empty box body, the supply line comprises a second supply branch line located above the departure line, and the second supply branch line is inclined downwards and close to the picking slot position.

And a baffle plate for blocking the empty box body from flowing is further arranged at one end, close to the picking slot, of the second supply branch line.

The scanning workbench is provided with an auxiliary table board for accommodating the box body, and the box body can be pushed into the auxiliary table board by the second station entering branch line.

The scanning workbench further comprises a sensor for detecting whether the box body on the auxiliary table top is available or not, and the sensor is electrically connected with the control system.

Compared with the prior art, the invention has the advantages that: 1. the stations for scanning and selecting goods are combined into a work station group, and a main line body and an outbound line are used for scanning and selecting goods, so that the scanning and selecting functions can be realized, and the equipment investment and the occupied space are reduced;

2. the work station group comprises a first station entering line and a second station entering line which are symmetrically arranged on two sides of the station exiting line, when the work station group is opened, two workers can be simultaneously arranged to respectively operate on the first station entering line and the second station entering line, so that the operation efficiency is improved, and the work station group shares a main line body and the station exiting line, so that the utilization efficiency of the transmission lines is higher;

3. the work station group also comprises a supply line positioned above the conveying line, and when the picking operation is carried out, the supply line can convey the empty box body to the position above the picking groove position, so that the box body can be conveniently replaced by an operator, and the picking efficiency is improved;

4. according to the invention, the supply line of the workstation group is positioned right above the main line body and the departure line, and operators positioned on different operation stations share one supply line to supply an empty box body, so that the equipment investment is reduced;

5. the picking slots of the workstation group are provided with a plurality of picking slots, so that operators can pick a plurality of tasks at the same time, and the frequency of putting boxes into and out of a warehouse is reduced;

6. the scanning workbench of the workstation group is provided with the auxiliary table board for accommodating the box bodies and the sensor for detecting whether the box bodies are arranged on the auxiliary table board, when scanning operation is carried out, when two vertically stacked box bodies are encountered, after goods in the upper layer box body are scanned, an operator can tilt the inner side of the upper layer box body and push the inner side of the upper layer box body into the auxiliary table board, so that the lower layer box body is conveniently scanned, troubles of moving the box bodies up and down are avoided, and the labor intensity of the operator is greatly reduced; when having the box on supplementary mesa, the sensor can detect the box and with signal transmission to control system, and the operation personnel can't start the transfer chain this moment, guarantees that upper and lower layer box is with advancing simultaneously with going out.

Drawings

FIG. 1 is a schematic diagram of the configuration of a group of scanning and picking stations of the present invention.

Fig. 2 is a schematic flow diagram of the scanning and picking station cluster conveyor line of the present invention.

FIG. 3 is a block diagram of the electrical connections of the group of scanning and picking stations of the present invention.

Detailed Description

The present invention will be described in further non-limiting detail with reference to the following preferred embodiments and accompanying drawings.

As shown in fig. 1 and fig. 2, a scanning and sorting work station group corresponding to a preferred embodiment of the present application includes a conveying line 1, a control system 2, a scanning work table 3 and a sorting slot 4, where the conveying line 1 includes a main line body 11, a first entering line 12 connected to the main line body 11, and an exiting line 13 connected to the main line body 11 and the first entering line 12, respectively, the scanning work table 3 and the sorting slot 4 are located on two sides of the first entering line 12, respectively, the sorting slot 4 is connected to a side edge of the exiting line 13, boxes containing goods to be scanned and/or boxes containing goods to be sorted both enter the first entering line 12 through the main line body 11, and flow back to the main line body 11 along the exiting line 13 after scanning and/or sorting.

The first station entering branch line 12 comprises a first station entering branch line 121 and a second station entering branch line 122 which are vertically connected, the end part of the first station entering branch line 121 is vertically connected with the side edge of the main line body 11, the end part of the second station entering branch line 122 is vertically connected with the side edge of the station exiting line 13, and the end part of the station exiting line 13 is vertically connected with the main line body 11. The main line body 11, the first station entering branch line 121, the second station entering branch line 122 and the station exiting line 13 enclose a square-shaped accommodating space 6, and the scanning workbench 3 is arranged in the accommodating space 6 and located on one side close to the second station entering branch line 122. An operating station 7 is formed between the second entry branch 122 and the picking slot 4, at which operating station 7 an operator can scan the scanning table 3 and/or pick up goods on the second entry branch 122 into the picking slot 4.

Preferably, the conveying line 1 further includes a second entering line 14, the second entering line 14 and the first entering line 12 have the same structure and are symmetrically disposed on two sides of the exiting line 13, and the second entering line 14 includes a third entering branch 141 vertically connected to the main line body 11 and a fourth entering branch 142 vertically connected to the exiting line 13. The main line body 11, the third entering branch line 141, the fourth entering branch line 142 and the exiting line 13 also enclose an accommodating space 6, and a scanning workbench 3 can be arranged in the accommodating space 6.

The picking slot positions 4 are symmetrically arranged on two sides of the departure line 13, the operating stations 7 are also formed between the fourth departure branch line 142 and the picking slot positions 4, when scanning operation and/or picking operation are needed, goods can enter the first departure line 12 and/or the second departure line 14 from the main line body 11 and flow back to the main line body 11 by sharing one departure line 13, so that equipment investment and occupied space are saved, and in addition, two workers can be arranged in one station group for operation at the same time, so that the working efficiency is improved.

Preferably, the picking slots 4 on both sides of the outbound line 13 are arranged side by side, and each picking slot 4 is provided with an empty box 5 for picking goods, so as to pick the goods conveyed by the second inbound branch line 122 and/or the fourth inbound branch line 142. In this embodiment, two picking slots 4 are arranged on each side of the outbound line 13, the system can simultaneously issue two tasks to the workstation, and the operating personnel put the goods to be picked into different empty boxes 5 according to the system requirements. Preferably, as shown in fig. 2 and 3, the picking slots 4 are further provided with a lighting system 41, the lighting system 41 includes a warning light 411 and a code scanning camera (not shown) which are arranged on each picking slot 4, and both the warning light 411 and the code scanning camera are electrically connected to the control system 2. When the operation personnel misplace the goods in the empty box 5, sweep the camera and can detect the goods and with signal transmission to control system 2, control system 2 drive warning light 411 opens to the suggestion operation personnel ensure that the operation personnel can put into the corresponding trench 4 of selecting of goods according to the system requirement. Code scanning cameras are well known in the art, and the structure and principle of the invention are not described in detail herein.

Further, the scanning workbench 3 comprises a plurality of vertically arranged support rods 31 and a support plate 32 fixedly connected to the support rods 31, and the support plate 32 is used for placing an operation computer, a label printer, packaging consumables and the like required by operation. The upper surface of the supporting plate 32 forms a placing surface for placing or setting operation articles, the table top is tidy, the visual angle is good, the distance between the label taken by an operator and the packaging consumable is short, the operator does not need to turn around and walk back and forth, and the operation is comfortable. Preferably, the scanning table 3 further comprises an auxiliary table 33 located below the support plate 32 for accommodating the box, in this embodiment, the auxiliary table is located 300mm above the conveying surface of the conveying line 1.

Because be used for adopting the lower little box of height when carrying the less goods of volume, for improving conveying efficiency, little box adopts two liang of transportation of piling up usually, consequently the operation personnel after the goods in the upper box of having scanned, can stick up the upper box inboard, and directly push it in supplementary mesa 33, wait to pull back the box on upper strata again after the operation personnel scan the goods in the lower box, and pile up together again with lower box, removed the puzzlement of moving the box from, greatly reduced operation personnel's intensity of labour.

Preferably, scanning workstation 3 still includes the sensor 34 that has or not the box on the supplementary mesa 33 of detection, and sensor 34 fixed mounting is on bracing piece 31, sensor 34 and control system 2 electric connection, and sensor 34 specifically is photoelectric sensor, and when the operating personnel did not pull back the box on the supplementary mesa 33, sensor 34 can detect the box to with signal transmission to control system 2, the operating personnel can't start transfer chain 1 this moment, thereby avoid the condition emergence that lower floor's box flowed out alone and selects the station.

Further, the workstation group further comprises a supply line 8 located above the conveying line 1, the supply line 8 comprises a first supply branch line 81 located right above the main line body 11 and a second supply branch line 82 located right above the station-leaving line 13, and the first supply branch line 81 and the second supply branch line 82 are vertically connected. The supply line 8 is used for supplying the empty box 5 on the picking groove position 4, and after the empty box 5 for picking goods is fully stored and flows out, the empty box 5 can flow into the second supply branch line 82 through the first supply branch line 81, so that the operators at the picking groove position 4 can conveniently take the empty box 5, and the picking efficiency is improved. Preferably, one end of the second supply branch line 82 close to the picking slot 4 is inclined downwards, so that the height of one side of the second supply branch line 82 is reduced, the situation that the empty box body 5 cannot be taken due to the fact that the height of the second supply branch line 82 is too high is avoided, meanwhile, the picking slot positions 4 on two sides of the departure line 13 can share one supply line 8, and equipment investment is reduced. Preferably, a baffle 821 for blocking the flow of the empty boxes 5 is further provided at an end of the second supply branch 82 near the picking slot 4, so as to prevent the empty boxes 5 from sliding out of the second supply branch 82 due to inclination.

Furthermore, a transfer mechanism (not shown) electrically connected to the control system 2 is disposed at a joint of each station line of the conveying line 1, and the line changing of the boxes is realized by the transfer mechanism. The transferring mechanism particularly adopts a structure of jacking and rotating to realize the line changing of the box body, when the box body reaches the position of the transferring mechanism, the transferring mechanism can detect the box body, lift the box body by 90 degrees and then descend to the original position, and therefore the box body can flow into another line body. The transferring mechanism is a transferring structure commonly used for conveying lines in the field, and the invention is not described herein again.

Furthermore, the connection parts of the main line body 11 and the first and second

station entering lines

12 and 14 are provided with identification devices 9 electrically connected with the control system 2, the identification devices 9 can identify the boxes after the goods are scanned and the boxes after the goods are picked, and the transfer mechanism will not drive the boxes to turn, so that the boxes flow into the designated position along the main line body 11 to be stored. And the box bodies of the goods which are not scanned and the box bodies of the goods which are not picked are transferred into the first entering station line 12 and/or the second entering station line 14 by the transfer mechanism for scanning and/or picking. In this embodiment, the recognition device 9 adopts a barcode scanning camera for recognizing barcodes, and thereby distinguishes different boxes by recognizing barcodes.

The working process of the work station group of the invention is as follows: firstly, the operator is located at the operating station 7 and the conveyor line 1 is in operation. When scanning operation is carried out, the box body filled with goods to be scanned flows in from the main line body 11, and when the box body flows to the position where the main line body 11 is connected with the first station entering branch line 121 and the third station entering branch line 141, the transferring mechanism lifts and turns the box body, so that the box body flows into the first station entering branch line 121 and the third station entering branch line 141; then the box body is transferred to the second station entering branch line 122 and the fourth station entering branch line 142 through the first station entering branch line 121 and the third station entering branch line 141, at this time, the control system 2 controls the first station entering line 12 and the second station entering line 14 to stop, an operator can scan and record the goods in the upper box body into the system, after the goods in the upper box body are scanned, the operator raises the inner side of the upper box body and pushes the upper box body into the auxiliary table 33, so that the goods in the lower box body can be scanned, after the goods in the lower box body are scanned, the operator pulls the upper box body back again and manually controls the first station entering line 12 and/or the second station entering line 14 to operate, and the box body can flow into the station exiting line 13 along the first station entering line 12 and flow back to the main line body 11. When the box body is stored on the auxiliary table 33, the sensor 34 can detect the box body and transmit a signal to the control system 2, at this time, even if the operator starts the first entering line 12 and/or the second entering line 14, the first entering line 12 and/or the second entering line 14 will not start, and the situation that the box body flows out alone is well prevented. In addition, the operator scans the goods box body to which the bar code is attached, when the box body attached with the bar code enters the main line body 11, the identification device 9 can identify the bar code and transmit a signal to the control system 2, when the box body attached with the bar code passes through the main line body 11 and the transfer mechanism at the third entering branch line 141, the transfer mechanism cannot be jacked and turned, the scanned box body can flow into a designated position to be stored, and the scanned box body cannot enter the third entering branch line 141 to cause repeated scanning.

When picking operation is carried out, the box bodies filled with goods to be picked flow in from the main line body 11 and respectively flow into the first station branch line 121 and the third station branch line 141, the box bodies respectively flow into the second station branch line 122 and the fourth station branch line 142 along the first station branch line 121 and the third station branch line 141, the operator at the position of the operation station 7 can pick the goods in the box bodies and place the goods into the designated empty box body 5, when the empty box 5 is full of goods, the operator attaches a bar code to the box in which the picked goods are stored and pushes the bar code into the exit line 13, the box flows into the main line body 11 along the exit line 13 and flows to a specified position along the flow direction, and the recognition device 9 can recognize the box of the picked goods so as to prevent the box from being diverted by the transfer mechanism at the main line body 11 and the third entering branch line 141 and entering the third entering branch line 141 to cause repeated picking. In addition, 1 top of transfer chain still is provided with supply line 8, and when the box that selects trench 4 flowed into out-of-station line 13, supply line 8 can carry empty box 5 to selecting trench 4 top department, and the operating personnel can take off empty box 5 and put into and select trench 4 and continue to select the goods, and the operating personnel need not to make a round trip to walk about and take empty box 5, has greatly improved and has selected efficiency.

The invention has the beneficial effects that: 1. the stations for scanning and selecting goods are combined into a work station group, and a main line body and an outbound line are used for scanning and selecting goods, so that the scanning and selecting functions can be realized, and the equipment investment and the occupied space are reduced;

It should be noted that the above-mentioned preferred embodiments are merely illustrative of the technical concepts and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. A group of scanning and picking work stations, comprising a conveyor line (1) and a control system (2) controlling the conveyor line (1), characterized in that: workstation group still includes scanning workstation (3) and selects trench (4), transfer chain (1) include main part line (11), with first line (12) of standing into that main part line (11) meet and respectively with main part line (11) with line (13) of standing out that first line (12) of standing into meets, scanning workstation (3) with select trench (4) and be located respectively first line (12) both sides of standing into, select trench (4) with line (13) side of standing out meets.

2. The group of scanning and picking stations of claim 1, wherein: the first station entering line (12) comprises a first station entering branch line (121) and a second station entering branch line (122) which are connected with each other, the first station entering branch line (121) is connected with the main line body (11), and the second station entering branch line (122) is connected with the station exiting line (13).

3. The group of scanning and picking stations of claim 2, wherein: the main body line (11), the first station entering branch line (121), the second station entering branch line (122) and the station exiting line (13) enclose a square-shaped accommodating space (6), and the scanning workbench (3) is arranged in the accommodating space (6) and is positioned on one side close to the second station entering branch line (122).

4. The group of scanning and picking stations of claim 3, wherein: an operating station (7) is formed between the second entry branch (122) and the picking slot (4).

5. The group of scanning and picking stations of claim 2, wherein: the conveying line (1) further comprises a second station entering line (14) which is the same as the first station entering line (12) in structure, and the second station entering line (14) and the first station entering line (12) are symmetrically arranged on two sides of the station exiting line (13).

6. The group of scanning and picking stations of claim 1, wherein: the picking groove positions (4) are symmetrically arranged on two sides of the departure line (13), and the picking groove positions (4) on each side of the departure line (13) are arranged side by side.

7. The group of scanning and picking stations of claim 1, wherein: the work station group further comprises a supply line (8) located above the conveying line (1) and used for supplying the empty box bodies (5), the supply line (8) comprises a second supply branch line (82) located above the station-leaving line (13), and the second supply branch line (82) inclines downwards and is close to the picking slot position (4).

8. The group of scanning and picking stations of claim 7, wherein: one end of the second supply branch line (82) close to the picking slot (4) is also provided with a baffle (821) for blocking the empty box body (5) from flowing.

9. The group of scanning and picking stations of claim 3, wherein: the scanning workbench (3) is provided with an auxiliary table board (33) for accommodating the box body, and the box body can be pushed into the auxiliary table board (33) by the second station entering branch line (122).

10. The group of scanning and picking stations of claim 9, wherein: scanning workstation (3) still including detect have sensor (34) of box on supplementary mesa (33), sensor (34) with control system (2) electric connection.